A vehicle top can comprise a targa top and a retractable top. The retractable top can comprise fabric and a frame. The targa top and the retractable top can be configured to be coupled to a vehicle such that the targa top overlies at least one front seat of the vehicle and the retractable top is pivotable between deployed and retracted positions. The fabric of the retractable top can be disposed closer to the targa top and overlie more of the vehicle when the retractable top is in the deployed position than when the retractable top is in the retracted position.
|
1. A vehicle top comprising:
a front top; and
a retractable top comprising fabric and a frame, wherein the frame includes two or more linkages, each of the linkages comprising two arms that each have an upper portion that is coupled to the fabric of the retractable top;
wherein the front top and the retractable top are configured to be coupled to a vehicle such that:
the front top overlies at least one front seat of the vehicle; and
the retractable top is pivotable between deployed and retracted positions, the fabric of the retractable top disposed closer to the front top and overlying more of the vehicle when the retractable top is in the deployed position than when the retractable top is in the retracted position, wherein:
the upper portion of each of the arms of each of the linkages is disposed closer to the front top when the retractable top is in the deployed position than when the retractable top is in the retracted position;
for each of first and second ones of the linkages, each of the arms has a lower end configured to be pivotably coupled to a respective one of opposing sides of the vehicle;
for each of the arms of the first linkage, the upper portion of the arm is coupled to a front portion of the fabric of the retractable top such that, when the retractable top is in the deployed position, as measured along a length of the vehicle the upper portion of the arm is disposed closer to the front top than is the lower end of the arm; and
for each of the arms of the second linkage, the upper portion of the arm is coupled to a rear portion of the fabric of the retractable top such that, when the retractable top is in the deployed position, as measured along a length of the vehicle the upper portion of the arm is disposed further from the front top than is the lower end of the arm.
15. A method of retracting a vehicle top, the method comprising:
pivoting a retractable top from a deployed position to a retracted position, wherein:
the retractable top comprises fabric and a frame that includes two or more linkages, each of the linkages comprising two arms that each have an upper portion that:
is coupled to the fabric of the retractable top; and
is disposed closer to the front of a vehicle when the retractable top is in the deployed position than when the retractable top is in the retracted position;
for each of first and second ones of the linkages, each of the arms has a lower end that is pivotably coupled to a respective one of opposing sides of the vehicle;
for each of the arms of the first linkage, the upper portion of the arm is coupled to a front portion of the fabric of the retractable top such that, when the retractable top is in the deployed position, as measured along a length of the vehicle the upper portion of the arm is disposed closer to the front of the vehicle than is the lower end of the arm;
for each of the arms of the second linkage, the upper portion of the arm is coupled to a rear portion of the fabric of the retractable top such that, when the retractable top is in the deployed position, as measured along a length of the vehicle the upper portion of the arm is disposed further from the front of the vehicle than is the lower end of the arm;
pivoting the retractable top to the retracted position comprises pivoting the arms of the first and second linkages relative to the vehicle; and
the fabric is disposed closer to a front of the vehicle and overlies more of the vehicle when the retractable top is in the deployed position than when the retractable top is in the retracted position; and
removing a front top that overlies at least one front seat of the vehicle from the vehicle.
2. The vehicle top of
the rear panel extends between the retractable top and a rear of the vehicle; and
each of the side panels extends between the retractable top and a respective one of opposing sides of the vehicle.
3. The vehicle top of
4. The vehicle top of
5. The vehicle top of
6. The vehicle top of
7. The vehicle top of
the two or more linkages comprise three or more linkages;
each of the arms of a third one of the linkages has a lower end pivotably coupled to a respective one of the arms of the second linkage; and
for each of the arms of the third linkage, the upper portion of the arm is coupled to a middle portion of the fabric of the retractable top that is disposed between the front and rear portions of the fabric such that, when the retractable top is in the deployed position, as measured along a length of the vehicle the upper portion of the arm is disposed closer to the front top than is the lower end of the arm.
8. The vehicle top of
9. The vehicle top of
10. The vehicle top of
one or more motors configured to pivot the arms of the first linkage relative to the vehicle to move the retractable top between the deployed and retracted positions;
wherein the retractable top is configured such that when the retractable top is pivoted from the deployed position to the retracted position, pivoting of the arms of the first linkage causes:
the arms of the second linkage to pivot until engaging a stopping surface disposed further from the front top than are the lower ends of the arms of the second linkage; and
after the arms of the second linkage engage the stopping surface, the arms of the third linkage to pivot relative to the second linkage.
11. The vehicle top of
the linkage support is configured to be fastened to opposing sides of the vehicle such that the front support is disposed higher and closer to a front of the vehicle than the linkage support;
the front top is configured to be removably coupled to the front support; and
the lower ends of the arms of the first and second linkages are pivotably coupled to the linkage support.
12. The vehicle top of
13. The vehicle top of
14. A vehicle comprising the vehicle top of
the front top is removably coupled to the vehicle such that the front top overlies at least one front seat of the vehicle; and
the retractable top is coupled to the vehicle such that the retractable top is pivotable between the deployed and retracted positions, the fabric of the retractable top disposed closer to the front top and overlying more of the vehicle when the retractable top is in the deployed position than when the retractable top is in the retracted position, wherein for each of the first and second linkages, the lower end of each of the arms is pivotably coupled to a respective one of opposing sides of the vehicle.
16. The method of
two side panels each extend between the retractable top and a respective one of opposing sides of the vehicle;
a rear panel extends between the retractable top and a rear of the vehicle; and
the method comprises decoupling the side panels and the rear panel from the vehicle and the retractable top.
17. The method of
18. The method of
the two or more linkages comprise three or more linkages;
each of the arms of a third one of the linkages has a lower end pivotably coupled to a respective one of the arms of the second linkage;
for each of the arms of the third linkage, the upper portion of the arm is coupled to a middle portion of the fabric of the retractable top that is disposed between the front and rear portions of the fabric such that, when the retractable top is in the deployed position, as measured along a length of the vehicle the upper portion of the arm is disposed closer to the front of the vehicle than is the lower end of the arm; and
pivoting the retractable top to the retracted position comprises actuating one or more motors such that the motor(s) pivot the arms of the first linkage relative to the vehicle, wherein pivoting of the arms of the first linkage causes:
the arms of the second linkage to pivot until the arms engage a stopping surface disposed further from the front of the vehicle than the lower ends of the arms of the second linkage; and
after the arms of the second linkage engage the stopping surface, the arms of the third linkage to pivot relative to the second linkage.
19. The vehicle of
the two or more linkages comprise three or more linkages;
each of the arms of a third one of the linkages has a lower end pivotably coupled to a respective one of the arms of the second linkage; and
for each of the arms of the third linkage, the upper portion of the arm is coupled to a middle portion of the fabric of the retractable top that is disposed between the front and rear portions of the fabric such that, when the retractable top is in the deployed position, as measured along a length of the vehicle the upper portion of the arm is disposed closer to the front top than is the lower end of the arm.
20. The vehicle of
one or more motors configured to pivot the arms of the first linkage relative to the vehicle to move the retractable top between the deployed and retracted positions;
wherein the retractable top is configured such that when the retractable top is pivoted from the deployed position to the retracted position, pivoting of the arms of the first linkage causes:
the arms of the second linkage to pivot until engaging a stopping surface disposed further from the front top than are the lower ends of the arms of the second linkage; and
after the arms of the second linkage engage the stopping surface, the arms of the third linkage to pivot relative to the second linkage.
|
This application claims the benefit of U.S. Provisional Application No. 63/091,855 filed Oct. 14, 2020. The contents of the referenced application are incorporated into the present application by reference.
The present invention relates generally to vehicle tops, and more particularly to vehicle tops that can be removed or retracted to uncover portions of a vehicle underlying the top.
Vehicles such as automobiles commonly include a top overlying a passenger compartment thereof. Vehicle tops can promote comfort for passengers by providing protection against wind, sun, precipitation (e.g., rain and snow), and/or the like. However, under desirable weather conditions, passenger enjoyment can be improved by uncovering at least a portion of the passenger compartment. Some vehicles include a top that allows a user to choose to ride with or without the top overlying the passenger compartment such that the top is available for protection in less-than-desirable conditions but can uncover the passenger compartment when desired. For example, some vehicles include a convertible top that is retractable, and others include a targa top that, while not retractable, can be removed from the vehicle to uncover the front seats thereof.
Current convertible and targa tops can pose challenges. For example, when retracted, convertible tops can occupy a substantial amount of cargo space, thereby decreasing the amount of cargo that the vehicle can carry. Additionally, some convertible tops can be difficult to retract and/or deploy. While targa tops can be readily removed, they typically only permit uncovering of the vehicle's front seats. These challenges can be pronounced for larger vehicles such as sport utility vehicles, which typically have multiple rows of seats and thus require a larger top to provide coverage thereof. These larger vehicles thus typically do not include tops that permit uncovering of the passenger compartment thereof, and those that do face the above-described challenges.
Accordingly, there is a need in the art for a user-friendly vehicle top that can allow the passenger compartment thereof to be uncovered while mitigating losses in cargo space. The present vehicle tops can address this need in the art by including both a targa top and a retractable top that comprises fabric and a frame. The targa top can be removably coupled to a vehicle to overlie at least one front seat thereof, thereby allowing a front portion of the vehicle's passenger compartment to be uncovered. The retractable top can be pivotable between deployed and retracted positions, wherein the retractable top's fabric is disposed closer to the targa top and overlies more of the vehicle when the retractable top is in the deployed position than when it is in the retracted position. A rear portion of the vehicle's passenger compartment can thus be uncovered by moving the retractable top to the retracted position. This configuration can allow the retractable top to have a relatively small form factor when in the retracted position to preserve cargo space and rear visibility for a driver, even when the vehicle is relatively large (e.g., a sport utility vehicle).
To facilitate retraction of the retractable top, the frame can include two or more linkages, each having two arms that each includes an upper portion coupled to the fabric. The arms of first and second ones of the linkages can each include a lower end that can be pivotably coupled to a respective one of opposing sides of the vehicle, with the upper portions of the first linkage's arms coupled to a front portion of the fabric and the upper portions of the second linkage's arms coupled to a rear portion of the fabric. Optionally, the arms of a third one of the linkages can each have a lower end pivotably coupled to a respective one of the arms of the second linkage and an upper portion coupled to a middle portion of the fabric. The retractable top can be pivoted from the deployed position to the retracted position by pivoting the arms of the first linkage (e.g., with one or more motors), which can cause the arms of the second linkage to pivot until they engage a stopping surface. Once the second linkage's arms engage the stopping surface, pivoting of the first linkage's arms can cause the third linkage's arms to pivot relative to the second linkage such that the retractable top folds onto itself. Retraction can be completed when the first linkage's arms engage those of the third linkage. This operation can be straightforward and user-friendly, while allowing the retractable top to have a small form factor.
The vehicle top can also include two side panels and a rear panel removably coupled to the retractable top and the vehicle such that the side panels each extends from the retractable top to a respective one of opposing sides of the vehicle and the rear panel extends from the retractable top to the vehicle's rear. Such side and rear panels can allow the retractable top to be positioned higher above the passenger compartment to yield more headroom for passengers in the rear seats thereof. The side and rear panels can be removed before the retractable top is pivoted to the retracted position.
Some of the present vehicles tops comprise a targa top and a retractable top. The targa top, in some vehicle tops, is configured to be coupled to a vehicle such that the targa top overlies at least one front seat of the vehicle. The retractable top, in some vehicle tops, is configured to be coupled to the vehicle such that the retractable top is pivotable between deployed and retracted positions. Some of the present methods comprise pivoting a retractable top from a deployed position to a retracted position. Some methods comprise removing a targa top that overlies at least one front seat of the vehicle from the vehicle.
In some embodiments, the retractable top comprises fabric and a frame. The fabric of the retractable top, in some embodiments, is disposed closer to the targa top and/or to a front of the vehicle and overlies more of the vehicle when the retractable top is in the deployed position than when the retractable top is in the retracted position. The targa top, in some embodiments, comprises fabric and a frame coupled to the fabric, wherein the frame is configured to be removably coupled to the vehicle such that the fabric overlies at least one front seat of the vehicle. In some embodiments, the targa top comprises one or more latches, each configured to detachably engage the vehicle.
The frame of the retractable top, in some embodiments, includes two or more linkages, optionally three or more linkages. Each of the linkages, in some embodiments, comprises two arms that each includes an upper portion that is coupled to the fabric of the retractable top and is disposed closer to the targa top and/or to the front of the vehicle when the retractable top is in the deployed position than when the retractable top is in the retracted position. In some embodiments, each of the linkages comprises a cross-support that is coupled to the fabric of the retractable top and extends between the upper portions of the arms of the linkage. The linkages, in some embodiments, are sized such that, when the retractable top is in the retracted position, for each of the cross-supports a distance, measured along the length of the vehicle, between the cross-support and each other of the cross-supports is within 10% of the length of the retractable top when in the deployed position.
In some embodiments, for each of first and second ones of the linkages, each of the arms has a lower end that is configured to be pivotably coupled or is pivotably coupled to a respective one of opposing sides of the vehicle. For each of the arms of the first linkage, in some embodiments, the upper portion of the arm is coupled to a front portion of the fabric of the retractable top such that, when the retractable top is in the deployed position, as measured along a length of the vehicle the upper portion of the arm is disposed closer to the targa top and/or to the front of the vehicle than is the lower end of the arm. For each of the arms of the second linkage, in some embodiments, the upper portion of the arm is coupled to a rear portion of the fabric of the retractable top such that, when the retractable top is in the deployed position, as measured along a length of the vehicle the upper portion of the arm is disposed further from the targa top and/or from the front of the vehicle than is the lower end of the arm. In some embodiments, each of the arms of a third one of the linkages has a lower end pivotably coupled to a respective one of the arms of the second linkage. For each of the arms of the third linkage, in some embodiments, the upper portion of the arm is coupled to a middle portion of the fabric of the retractable top that is disposed between the front and rear portions of the fabric such that, when the retractable top is in the deployed position, as measured along a length of the vehicle the upper portion of the arm is disposed closer to the targa top and/or to the front of the vehicle than is the lower end of the arm.
In some of the present methods, pivoting the retractable top to the retracted position comprises pivoting the arms of the first and second linkages relative to the vehicle. Some vehicle tops comprise, for at least one arm of the first linkage, a motor configured to pivot the arm relative to the vehicle to move the retractable top between the deployed and retracted positions, and in some methods pivoting the retractable top to the retracted position comprises actuating one or more motors such that the motor(s) pivot the arms of the first linkage relative to the vehicle. In some embodiments, pivoting of the arms of the first linkage causes the arms of the second linkage to pivot until engaging a stopping surface disposed further from the targa top and/or from the front of the vehicle than are the lower ends of the arms of the second linkage and, after the arms of the second linkage engage the stopping surface, the arms of the third linkage to pivot relative to the second linkage.
Some of the present vehicle tops comprise a rear panel and two side panels configured to be coupled to the retractable top and the vehicle when the retractable top is in the deployed position such that the rear panel extends between the retractable top and a rear of the vehicle and each of the side panels extends between the retractable top and a respective one of opposing sides of the vehicle. In some vehicle tops, the rear panel and side panels each is configured to be slidably coupled to the retractable top. Each of the side panels, in some vehicle tops, is configured to be coupled to the rear panels. In some of such vehicle tops, each of the side panels comprises a fastening element in a rear portion of the side panel that is configured to engage a fastening element of the rear panel to couple the side panel to the rear panel. Some methods comprise decoupling the side panels and the rear panel from the vehicle and the retractable top before the retractable top is pivoted to the retracted position. In some of such methods, decoupling the rear panel comprises pivoting the retractable top towards the retracted position. The rear panel and the side panels, in some embodiments, each comprises fabric surrounding a transparent material.
Some vehicle tops comprise a mounting frame and includes a targa support, a linkage support, and a riser extending between the targa support and the linkage support. The linkage support, in some vehicle tops, is configured to be fastened to opposing sides of the vehicle such that the targa support is disposed higher and closer to a front of the vehicle than the linkage support. The targa top, in some vehicle tops, is configured to be removably coupled to the targa support. The lower ends of the arms of the first and second linkages, in some vehicle tops, are pivotably coupled to the linkage support.
Some of the present vehicles comprise one of the present vehicle tops. In some vehicles, the targa top is removably coupled to the vehicle such that the targa top overlies at least one front seat of the vehicle. In some vehicles, the retractable top is coupled to the vehicle such that the retractable top is pivotable between the deployed and retracted positions, the fabric of the retractable top disposed closer to the targa top and overlying more of the vehicle when the retractable top is in the deployed position than when the retractable top is in the retracted position.
Also disclosed are aspects 1-20. Aspect is a vehicle top comprising: a targa top; and a retractable top comprising fabric and a frame; wherein the targa top and the retractable top are configured to be coupled to a vehicle such that: the targa top overlies at least one front seat of the vehicle; and the retractable top is pivotable between deployed and retracted positions, the fabric of the retractable top disposed closer to the targa top and overlying more of the vehicle when the retractable top is in the deployed position than when the retractable top is in the retracted position. Aspect 2 is the vehicle top of aspect 1, comprising a rear panel and two side panels configured to be removably coupled to the retractable top and the vehicle when the retractable top is in the deployed position such that: the rear panel extends between the retractable top and a rear of the vehicle; and each of the side panels extends between the retractable top and a respective one of opposing sides of the vehicle. Aspect 3 is the vehicle top of aspect 2, wherein the rear panel and the side panels each comprises fabric surrounding a transparent material. Aspect 4 is the vehicle top of aspect 2 or 3, wherein the rear panel and the side panels each is configured to be slidably coupled to the retractable top. Aspect 5 is the vehicle top of any of aspects 2-4, wherein each of the side panels is configured to be coupled to the rear panel. Aspect 6 is the vehicle top of aspect 5, wherein each of the side panels comprises a fastening element in a rear portion of the side panel that is configured to engage a fastening element of the rear panel to couple the side panel to the rear panel. Aspect 7 is the vehicle top of any of aspects 1-6, wherein: the frame of the retractable top includes two or more linkages, each of the linkages comprising two arms that each has an upper portion that: is coupled to the fabric of the retractable top; and is disposed closer to the targa top when the retractable top is in the deployed position than when the retractable top is in the retracted position; for each of first and second ones of the linkages, each of the arms has a lower end configured to be pivotably coupled to a respective one of opposing sides of the vehicle; for each of the arms of the first linkage, the upper portion of the arm is coupled to a front portion of the fabric of the retractable top such that, when the retractable top is in the deployed position, as measured along a length of the vehicle the upper portion of the arm is disposed closer to the targa top than is the lower end of the arm; and for each of the arms of the second linkage, the upper portion of the arm is coupled to a rear portion of the fabric of the retractable top such that, when the retractable top is in the deployed position, as measured along a length of the vehicle the upper portion of the arm is disposed further from the targa top than is the lower end of the arm. Aspect 8 is the vehicle top of aspect 7, wherein: the two or more linkages comprise three or more linkages; each of the arms of a third one of the linkages has a lower end pivotably coupled to a respective one of the arms of the second linkage; and for each of the arms of the third linkage, the upper portion of the arm is coupled to a middle portion of the fabric of the retractable top that is disposed between the front and rear portions of the fabric such that, when the retractable top is in the deployed position, as measured along a length of the vehicle the upper portion of the arm is disposed closer to the targa top than is the lower end of the arm. Aspect 9 is the vehicle top of aspect 7 or 8, wherein each of the linkages comprises a cross-support that is coupled to the fabric of the retractable top and extends between the upper portions of the arms of the linkage. Aspect 10 is the vehicle top of aspect 9, wherein the linkages are sized such that, when the retractable top is in the retracted position, for each of the cross-supports a distance, measured along the length of the vehicle, between the cross-support and each other of the cross-supports is within 10% of the length of the retractable top when in the deployed position. Aspect 11 is the vehicle top of any aspects 8-10, comprising: for at least one arm of the first linkage, a motor configured to pivot the arm relative to the vehicle to move the retractable top between the deployed and retracted positions; wherein when the retractable top is pivoted from the deployed position to the retracted position, pivoting of the arms of the first linkage causes: the arms of the second linkage to pivot until engaging a stopping surface disposed further from the targa top than are the lower ends of the arms of the second linkage; and after the arms of the second linkage engage the stopping surface, the arms of the third linkage to pivot relative to the second linkage. Aspect 12 is the vehicle top of any of aspects 7-11, comprising a mounting frame that includes a targa support, a linkage support, and a riser extending between the targa support and the linkage support, wherein: the linkage support is configured to be fastened to opposing sides of the vehicle such that the targa support is disposed higher and closer to a front of the vehicle than the linkage support; the targa top is configured to be removably coupled to the targa support; and the lower ends of the arms of the first and second linkages are pivotably coupled to the linkage support. Aspect 13 is the vehicle top of any of aspects 1-12, wherein the targa top comprises fabric and a frame coupled to the fabric, wherein the frame is configured to be removably coupled to the vehicle such that the fabric overlies at least one front seat of the vehicle. Aspect 14 is the vehicle top of aspect 13, wherein the targa top comprises one or more latches, each configured to detachably engage the vehicle.
Aspect 15 is a vehicle comprising the vehicle top of any of aspects 1-14, wherein: the targa top is removably coupled to the vehicle such that the targa top overlies at least one front seat of the vehicle; and the retractable top is coupled to the vehicle such that the retractable top is pivotable between the deployed and retracted positions, the fabric of the retractable top disposed closer to the targa top and overlying more of the vehicle when the retractable top is in the deployed position than when the retractable top is in the retracted position.
Aspect 16 is a method of retracting a vehicle top, the method comprising: pivoting a retractable top from a deployed position to a retracted position, wherein: the retractable top comprises fabric and a frame; and the fabric is disposed closer to a front of the vehicle and overlies more of the vehicle when the retractable top is in the deployed position than when the retractable top is in the retracted position; and removing a targa top that overlies at least one front seat of the vehicle from the vehicle. Aspect 17 is the method of aspect 16, wherein before the retractable top is pivoted to the retracted position: two side panels each extends between the retractable top and a respective one of opposing sides of the vehicle; a rear panel extends between the retractable top and a rear of the vehicle; and the method comprises decoupling the side panels and the rear panel from the vehicle and the retractable top. Aspect 18 is the method of aspect 17, wherein decoupling the rear panel comprises pivoting the retractable top towards the retracted position. Aspect 19 is the method of any of aspects 16-18, wherein: the frame of the retractable top includes two or more linkages, each of the linkages comprising two arms that each has an upper portion that: is coupled to the fabric of the retractable top; and is disposed closer to the front of the vehicle when the retractable top is in the deployed position than when the retractable top is in the retracted position; for each of first and second ones of the linkages, each of the arms has a lower end that is pivotably coupled to a respective one of opposing sides of the vehicle; for each of the arms of the first linkage, the upper portion of the arm is coupled to a front portion of the fabric of the retractable top such that, when the retractable top is in the deployed position, as measured along a length of the vehicle the upper portion of the arm is disposed closer to the front of the vehicle than is the lower end of the arm; for each of the arms of the second linkage, the upper portion of the arm is coupled to a rear portion of the fabric of the retractable top such that, when the retractable top is in the deployed position, as measured along a length of the vehicle the upper portion of the arm is disposed further from the front of the vehicle than is the lower end of the arm; and pivoting the retractable top to the retracted position comprises pivoting the arms of the first and second linkages relative to the vehicle. Aspect 20 is the method of aspect 19, wherein: the two or more linkages comprise three or more linkages; each of the arms of a third one of the linkages has a lower end pivotably coupled to a respective one of the arms of the second linkage; for each of the arms of the third linkage, the upper portion of the arm is coupled to a middle portion of the fabric of the retractable top that is disposed between the front and rear portions of the fabric such that, when the retractable top is in the deployed position, as measured along a length of the vehicle the upper portion of the arm is disposed closer to the front of the vehicle than is the lower end of the arm; and pivoting the retractable top to the retracted position comprises actuating one or motors such that the motor(s) pivot the arms of the first linkage relative to the vehicle, wherein pivoting of the arms of the first linkage causes: the arms of the second linkage to pivot until the arms engage a stopping surface disposed further from the front of the vehicle than the lower ends of the arms of the second linkage; and after the arms of the second linkage engage the stopping surface, the arms of the third linkage to pivot relative to the second linkage.
The term “coupled” is defined as connected, although not necessarily directly, and not necessarily mechanically; two items that are “coupled” may be unitary with each other. The terms “a” and “an” are defined as one or more unless this disclosure explicitly requires otherwise. The term “substantially” is defined as largely but not necessarily wholly what is specified—and includes what is specified; e.g., substantially 90 degrees includes 90 degrees and substantially parallel includes parallel—as understood by a person of ordinary skill in the art. In any disclosed embodiment, the terms “substantially” and “approximately” may be substituted with “within [a percentage] of” what is specified, where the percentage includes 0.1, 1, 5, and 10 percent.
The terms “comprise” and any form thereof such as “comprises” and “comprising,” “have” and any form thereof such as “has” and “having,” and “include” and any form thereof such as “includes” and “including” are open-ended linking verbs. As a result, a product or system that “comprises,” “has,” or “includes” one or more elements possesses those one or more elements, but is not limited to possessing only those elements. Likewise, a method that “comprises,” “has,” or “includes” one or more steps possesses those one or more steps, but is not limited to possessing only those one or more steps.
Each dimension herein provided in an English unit may be translated to the corresponding metric unit by rounding to the nearest millimeter.
Any embodiment of any of the products, systems, and methods can consist of or consist essentially of—rather than comprise/include/have—any of the described steps, elements, and/or features. Thus, in any of the claims, the term “consisting of” or “consisting essentially of” can be substituted for any of the open-ended linking verbs recited above, in order to change the scope of a given claim from what it would otherwise be using the open-ended linking verb.
Further, a device or system that is configured in a certain way is configured in at least that way, but it can also be configured in other ways than those specifically described.
The feature or features of one embodiment may be applied to other embodiments, even though not described or illustrated, unless expressly prohibited by this disclosure or the nature of the embodiments.
Some details associated with the embodiments described above and others are described below.
The following drawings illustrate by way of example and not limitation. For the sake of brevity and clarity, every feature of a given structure is not always labeled in every figure in which that structure appears. Identical reference numbers do not necessarily indicate an identical structure. Rather, the same reference number may be used to indicate a similar feature or a feature with similar functionality, as may non-identical reference numbers.
Referring to
Targa top 14 and retractable top 18 can each be configured to independently allow exposure of a portion of vehicle 122's passenger compartment. As shown in
Targa top 14 can be removably coupled to vehicle 122 in any suitable manner, such as via one or more straps, bolts, latches, and/or the like. For example, vehicle top 10 can include a mounting frame 58 that can be fastened to vehicle 122 and include a targa support 66 to which targa top 14 can be removably coupled. Referring additionally to
Targa top 14 can have any suitable structure to protect passengers from the elements (e.g., wind, precipitation, sun, and/or the like) when coupled to vehicle 122. For example, targa top 14 can comprise a frame 74 and a liquid-repellant fabric 78 coupled to the frame (e.g., to define an outer surface of the targa top). Frame 74 can comprise a side rail 98 extending along each side of targa top 14 and one or more—optionally two or more—cross-supports 102 extending between the side rails, the side rails and cross-support(s) each comprising a material that can provide rigid support, such as a metal (e.g., steel and/or aluminum). Fabric 78 can comprise, for example, a vinyl or a canvas comprising acrylic, butyl rubber, and/or cotton. With its frame-and-fabric structure, targa top 14 can resist deformations that change its planform (e.g., the targa top cannot be folded) and can be relatively lightweight, which can facilitate removal thereof. In other embodiments, however, targa top 14 need not comprise a fabric and/or can be flexible (e.g., to permit folding and/or rolling of the targa top).
Retractable top 18 can comprise a fabric 30 and be pivotable between retracted and deployed positions such that when the retractable top is in the deployed position (e.g., as shown in
Retractable top 18 can be structured to provide protection against the elements (e.g., wind, precipitation, sun, and/or the like) when deployed while permitting retraction thereof. To do so, and referring additionally to
To permit retraction of retractable top 18, for each of first and second linkages 38a and 38b, each of arms 42 can have a lower end 50 that can be pivotably coupled to a respective one of vehicle 122's opposing sides 134a and 134b. Such vehicle attachment can be achieved via a linkage support 62 of mounting frame 58 that can be fastened to vehicle 122's sides 134a and 134b; lower ends 50 of arms 42 of first and second linkages 38a and 38b can be pivotably coupled to the linkage support. Additionally, arms 42 of third linkage 38c can each have a lower end 50 pivotably coupled to a respective one of the arms of second linkage 38b. This can allow retractable top 18 to be pivoted between the deployed and retracted positions.
As mentioned above, when retractable top 18 is in the deployed position, its fabric 30 can be disposed closer to targa top 14—and thus to targa support 66 and vehicle 122's front 126—than when in the retracted position. For example, retractable top 18 can engage targa top 14 when deployed, such as to form a seal to prevent fluid ingress through the interface therebtween. To permit this, a riser 70 can extend between linkage support 62 and targa support 66 such that the targa support (and thus targa top 14) is higher than the linkage support and lower ends 50 of arms 42 of first and second linkages 38a and 38. For each of arms 42 of first linkage 38a and/or of third linkage 38c, the arm can extend toward targa top 14 and targa support 66 such that, as measured along vehicle 122's length, upper portion 46 of the arm is positioned closer to the targa top, targa support, and the vehicle's front 126 than is lower end 50 of the arm, thereby allowing front portion 158 of fabric 30 to be positioned near the targa top (e.g., within a distance that is less than or equal to 10%, 8%, 6%, 4%, or 2% of the fabric's length 174). By contrast, each of arms 42 of second linkage 38b can extend away from targa top 14 and targa support 66 such that, as measured along vehicle 122's length, upper portion 46 of the arm is positioned further from the targa top, targa support, and the vehicle's front 126 than is lower end 50 of the arm.
Referring additionally to
Referring additionally to
As shown, retractable top 18 can be pivoted by pivoting arms 42 of first linkage 38a. Doing so can cause arms 42 of second linkage 38b to pivot relative to vehicle 122 (e.g., from a force transmitted through retractable top 18's fabric 30), wherein when the retractable top moves from the deployed position to the retracted position, the second linkage's arms can pivot until engaging a stopping surface 132 that is disposed further from targa top 14 and the vehicle's front 126 than are lower ends 50 of the arms (
As shown in
A vehicle 122 that can include vehicle top 10 can be any suitable vehicle, such as an automobile. As shown vehicle 122 can be a sport utility vehicle, which can be relatively large. To illustrate, vehicle 122's height can be greater than or equal to any one of, or between any two of, 67, 69, 71, 73, 75, or 77 inches (e.g., at least 69 inches) and length can be greater than or equal to any one of, or between any two of, 145, 148, 151, 154, 157, 160, 163, 166, 169, or 172 inches.
Such a sport utility vehicle 122 can also be four-wheel or all-wheel drive such that each of its four wheels can be configured to receive power from its engine. In other embodiments, however, vehicle 122 can be a different type of vehicle, such as a side-by-side, buggy, and/or the like.
Some of the present methods of retracting a vehicle top (e.g., 10) (e.g., any of those described above)—which can comprise a retractable top (e.g., 18) comprising a fabric (e.g., 30) and a frame (e.g., 34)—include a step of pivoting the retractable top from the deployed position (
In some methods, two side panels (e.g., 22a and 22b) each extends between the retractable top and a respective one of opposing sides (e.g., 134a and 134b) of the vehicle and a rear panel (e.g., 26) extends between the retractable top and a rear (e.g., 130) of the vehicle. Before the retractable top is pivoted to the retracted position, some methods comprise decoupling the side panels and the rear panel from the vehicle and the retractable top, such as by sliding the side and rear panels relative to the retractable top as described above. To facilitate removal of the rear panel, the retractable top can be pivoted toward the retracted position (e.g., to a position between the deployed and retracted positions). This can relieve tension on the rear panel such that that a bottom portion (e.g., 154) thereof can be readily disengaged from the vehicle's rear to permit the rear panel to slide relative to the retractable top.
As described above, the retractable top's frame can comprise two or more linkages (e.g., 38a-38c) that each includes two arms (e.g., 46), each having an upper portion (e.g., 46) that is coupled to the retractable top's fabric and is disposed closer to the vehicle's front when the retractable top is in the deployed position than when the retractable top is in the retracted position. In some methods, pivoting the retractable top to the retracted position comprises pivoting the arms of the first (e.g., 38a) and second (e.g., 38b) linkages relative to the vehicle. Pivoting the retractable top can comprise actuating one or more motors (e.g., 168) such that the motor(s) pivot the arms of the first linkage relative to the vehicle, thereby causing the arms of the second linkage to pivot until they engage a stopping surface (e.g., 132) disposed further from the vehicle's front than the lower ends (e.g., 50) of the arms of the second linkage and, after the second linkage's arms engage the stopping surface, the arms of a third linkage (e.g., 38c) to pivot relative to the second linkage.
Some methods include a step of removing a targa top (e.g., 14) that overlies at least one—optionally at least two—front seat (e.g., 136a) of the vehicle from the vehicle (e.g., in any of the manners described above). The targa top can be removed before, during, or after the retractable top is pivoted to the retracted position.
The above specification and examples provide a complete description of the structure and use of illustrative embodiments. Although certain embodiments have been described above with a certain degree of particularity, or with reference to one or more individual embodiments, those skilled in the art could make numerous alterations to the disclosed embodiments without departing from the scope of this invention. As such, the various illustrative embodiments of the products, systems, and methods are not intended to be limited to the particular forms disclosed. Rather, they include all modifications and alternatives falling within the scope of the claims, and embodiments other than the one shown may include some or all of the features of the depicted embodiment. For example, elements may be omitted or combined as a unitary structure, and/or connections may be substituted. Further, where appropriate, aspects of any of the examples described above may be combined with aspects of any of the other examples described to form further examples having comparable or different properties and/or functions, and addressing the same or different problems. Similarly, it will be understood that the benefits and advantages described above may relate to one embodiment or may relate to several embodiments.
The claims are not intended to include, and should not be interpreted to include, means-plus- or step-plus-function limitations, unless such a limitation is explicitly recited in a given claim using the phrase(s) “means for” or “step for,” respectively.
Patent | Priority | Assignee | Title |
Patent | Priority | Assignee | Title |
2697633, | |||
4850634, | Sep 22 1986 | Gebr. Haslbeck GmbH | Folding top for cross-country vehicles |
5080428, | Dec 27 1989 | Foldable roof assembly for vehicles having a TARGA top | |
5299850, | Aug 28 1991 | Suzuki Motor Corporation; OHTA SHEET COMPANY, LTD | Automobile with canvas |
6068326, | Sep 10 1997 | Suzuki Motor Corporation | Support structure for a canvas top bow on a canvas top automobile |
6206450, | Apr 15 1997 | Suzuki Motor Corporation | Automotive convertible top attaching construction |
6309007, | Nov 01 1999 | BESTOP, INC , A DELAWARE CORPORATION | Two-piece hardtop for a sport utility vehicle |
6431635, | Jul 31 2000 | Industrie Pininfarina S.p.A. | Flexible hood for a convertible motor car |
7523977, | Dec 18 2003 | Magna Car Top Systems GmbH | Modular convertible top |
8944486, | Sep 19 2012 | Vehicle top | |
FR2745778, |
Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Oct 14 2021 | BIG SKY LAND COMPANY, LLC | (assignment on the face of the patent) | / | |||
Sep 21 2022 | BURGETT, SETH | BIG SKY LAND COMPANY, LLC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 061176 | /0122 |
Date | Maintenance Fee Events |
Oct 14 2021 | BIG: Entity status set to Undiscounted (note the period is included in the code). |
Oct 25 2021 | SMAL: Entity status set to Small. |
Date | Maintenance Schedule |
Aug 15 2026 | 4 years fee payment window open |
Feb 15 2027 | 6 months grace period start (w surcharge) |
Aug 15 2027 | patent expiry (for year 4) |
Aug 15 2029 | 2 years to revive unintentionally abandoned end. (for year 4) |
Aug 15 2030 | 8 years fee payment window open |
Feb 15 2031 | 6 months grace period start (w surcharge) |
Aug 15 2031 | patent expiry (for year 8) |
Aug 15 2033 | 2 years to revive unintentionally abandoned end. (for year 8) |
Aug 15 2034 | 12 years fee payment window open |
Feb 15 2035 | 6 months grace period start (w surcharge) |
Aug 15 2035 | patent expiry (for year 12) |
Aug 15 2037 | 2 years to revive unintentionally abandoned end. (for year 12) |